Loved it.. didn't had the urge to speed it up or skip parts becoz u have already strategically done it.. concisely explained what Blasius equation is used for. Now will look for its derivation.
Hello thank you just a question can you make a video on how to solve this problem: Using Blasius solution plot the velocity at x= 0.1 m and 1m for assuming a free stream velocity of 30m/s and a temperature of 25C. Calculate the boundary layer thickness and displacement and the momentum thickness. Calculate also the friction and the drag coefficient. thank you
Loved it.. didn't had the urge to speed it up or skip parts becoz u have already strategically done it.. concisely explained what Blasius equation is used for.
Now will look for its derivation.
Thank you so much, I have an exam tomorrow and this makes me feel prepared
This is an amazing explanation !! Thanks !!
Is this boundary layer thickness for flow over a flat plate
Thank you so much! life saver.
Awesome, love the content.
thanks so much for this nice and useful lecture 😊
That was very clear, but you never explained how the velocity function was derive. Could you please. Thank You.
Amazing Video !
Thank you 🙏
respect
Hi, why the derivative of \sqrt(x) in the last row?
Thank yu prof
0:20
Hello thank you
just a question
can you make a video on how to solve this problem:
Using Blasius solution plot the velocity at x= 0.1 m and 1m for assuming
a free stream velocity of 30m/s and a temperature of 25C.
Calculate the boundary layer thickness and displacement
and the momentum thickness. Calculate also the friction and the drag coefficient.
thank you
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